Intel and Micron team up to launch a new class of computer memory

The decade-long partnership between Intel and Micron to build better NAND (or Flash) memory used in solid-state drives has yielded an entirely new form of computer memory. This is a big deal. It’s as if a 10-year effort by Ford and GM to build a better car also produced a Segway.

New types of computer memory pop up every few years as firms such as HP, IBM, Motorola/Freescale and even startups try to create alternatives that are cheaper, faster, more dense or otherwise offer a different series of trade-offs than the dominant forms of memory used today. Some will find specialty applications in embedded systems, but most are too expensive or fragile to find mainstream use cases.

What Intel and Micron are hoping with this product is that is can achieve mass popularity.

image courtesy of Intel

The two companies are calling their new memory 3D XPoint memory (pronounce 3D crosspoint memory) because its structure creates an lattice-like stacked layer of wires that looks like Xes when viewed from above. It combines properties of NAND Flash memory that is currently used inside solid state drives (SSDs) inside computers and phones, but it is 1,000 times faster and can last through 1,000 times more data writes.

That speed and endurance isn’t as important in your personal computer, but as SSDs are gaining use inside data centers because of their speed, both factors open up new use cases for the 3D Xpoint memory. One might be use for in-memory databases such as those made by Oracle and SAP, where the memory is located close to the compute. Usually in-memory databases require a lot of dynamic random access memory (DRAM) which is co-located with the processor, but DRAM is in limited supply and it loses everything when the power is turned off.

But Rob Crooke, senior vice president and general manager of Intel’s Non-Volatile Memory Solutions Group, explained that because the 3D Xpoint memory combines some of the elements of NAND and DRAM, you can have a lot of it (10 times more than current DRAM) and it’s non-volatile, which means that when the power goes off the data stored in it will stick around.

The new memory sounds like it’s going to be more power-intensive than NAND Flash, but the performance boost may make it worthwhile, while it should consume less power than DRAM since it won’t have to continuously refresh itself to ensure that the data stays in place.

The breakthrough that allowed the creation of 3D XPoint is one of materials science. Intel and Micron researchers have made the wires out of a new material as well as the wells that make up the memory cell where each bit of data is stored. When asked if manufacturing this new form of memory would require a significant change of equipment or investment, Crooke said it was as easy as moving to the next step in manufacturing smaller chips.

For those eager to see 3D XPoint in action, you’ll have to wait. Crooke said the manufacturing has only recently been moved from a research line in Micron’s Boise, Idaho fab to an Intel production fab in Utah. The firms will provide sample wafers to customers by the end of this year and the chips would be in actual products shipping to customers in 2016. My expectation is that big name data center customers such as Facebook, Baidu, Amazon or Microsoft will be the first ones to put something like this through its paces to see if they can find a home for the new technology.